inverse trig functions - texas a&m universityshatalov/inverse trig functions.pdf · the...
TRANSCRIPT
![Page 1: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/1.jpg)
Colin Cox
INVERSE TRIGONOMETRIC FUNCTIONS
![Page 2: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/2.jpg)
WHAT IS AN INVERSE TRIG FUNCTION?
• Used to solve for the angle when you know two sides of a right triangle. For example if a
ramp is resting against a trailer, then you could find the angle of its incline if you know the
distance and the height to the trailer.
• Solving for angles on the unit circle if given the either the sine or cosine value at a point.
For example, if the cosx=1
2, the arccos(
1
2)=
𝜋
3. Likewise, if the sinx=
3
2, then the
arcsin(3
2)= 𝜋/3 as well. *There is only one solution in the domain of the arccos and arcsin
function for this value but we will get to that later.
![Page 3: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/3.jpg)
HISTORY
• The Greeks were the original pioneers of trigonometry.
• Euclid, a Greek mathematician (300BC), defined triangles as a ratio of lines rather than
the lengths of lines in his book, Elements.
• Isaac Newton took a bold step toward modern trigonometry by founding differential
calculus in the 13th century.
• Euler established a deep relationship between the trigonometric
function with Euler’s Formula, e^(iθ)= cos θ + isinθ. This
equation led us to the unit circle.
![Page 4: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/4.jpg)
INTRODUCTION
• To begin, one must understand that an Inverse function is simply an
exchange between the x and y in a ONE-TO-ONE function.
• One-to-one simply means that every element of the range of the function
corresponds with exactly one element of the domain (This will be crucial in
the explanation of Inverse Trig Functions).
![Page 5: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/5.jpg)
Horizontal Line Test
• A function must pass the Horizontal Line Test to be considered one-to-one. No
horizontal line can intersect the function more than once.
Passes! Does not pass!
f(x)=tan(x), –𝜋/2≤x≤𝜋/2 f(x)=sin(x)
![Page 6: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/6.jpg)
DEFINITION
The Definition of Inverse trig functions can be seen as the following formulas. Each is the
inverse of their respective trigonometric function. Also, each inverse trig function also has a
unique domain and range that make them one-to-one functions.
• Inverse Sine function= arcsinx
• Inverse Cosine Function= arccosx
• Inverse Tangent Function= arctanx
• Inverse Secant Function= arcsecx
• Inverse Cotangent Function= arccotx
• Inverse Cosecant Function= arccscx
![Page 7: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/7.jpg)
Example
We must limit the Domain of the f(x)=sin(x) function to obtain a one-to-one function.
D(sinx)= [-𝝅/2, 𝝅/2]
![Page 8: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/8.jpg)
Inverse Sin Function
Domain Range
f(x)=sinx [-𝜋/2, 𝜋/2] [-1,1]
f(x)=arcsinx [-1,1] [-𝜋/2, 𝜋/2]
*Remember arcsinx does NOT equal 1/sinx
A few cancelation equations
arcsin(sinx)=x (As long as the domain is between [-𝜋/2, 𝜋/2]
sin(arcsinx)=x (If domain is between [-1,1])
f(x)=arcsinx
![Page 9: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/9.jpg)
Inverse Cos Function
Domain Range
f(x)=cosx [0, 𝜋] [-1,1]
f(x)=arccosx [-1,1] [0,𝜋]
A few cancelation equations
arcos(cosx)=x (As long as the domain is between [0, 𝜋])
cos(arccosx)=x (If domain is between [-1,1])
*Remember arccosx does NOT equal 1/cosx
f(x)=arccosx
![Page 10: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/10.jpg)
Inverse Tan Function
Domain Range
f(x)=tanx [-𝜋/2, 𝜋/2] [-∞, ∞]
f(x)=arctanx [-∞, ∞] [-𝜋/2, 𝜋/2]
*Remember arctanx does NOT equal 1/tanx
f(x)=arctanx
A few cancelation equations
arctan(tanx)=x (As long as the domain is between [-𝜋/2, 𝜋/2]
tan(arctanx)=x (domain is all real numbers)
![Page 11: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/11.jpg)
METHODS OF SOLVING
Lets look at a point on the unit circle, (3
2,1/2)
• Start by visualizing the object
(such as drawing a triangle)
• Essentially, you are looking for an angle that y is equal to when cos(x)= 3
2 or sin(x)=
1
2
• Solve arccos3
2= 𝜋
6 and likewise arcsin
1
2= 𝜋
6
![Page 12: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/12.jpg)
METHODS OF SOLVING
Simplify the expression sin(arctanx)
• Essentially, you are looking for an the sin of a number whose tangent is x
• Start by visualizing the object
(such as drawing a triangle)
• We know that the legs of the triangle are x and 1 because of arctanx= 𝑥
1
• Since the range of arctanx is [-𝜋/2, 𝜋/2], we only consider positive values of x
• The next step is finding the hypotenuse, which is 𝑥2 + 1 in this case
• Finally, we read off the sine ratio to get sin(arctanx)= 𝑥
𝑥2+1
1
x
![Page 13: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/13.jpg)
Derivatives of Inverse Trig Functions
*It is necessary to memorize these formulas
![Page 14: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/14.jpg)
EXAMPLE: FINDING MAXIMUM VIEWING ANGLE
Suppose that you are going at Buffalo Wild Wings to watch the Aggie game. The
television is 1.5 meters tall and 3 meters above eye level. If the best view of the
screen is obtained when the viewing angle is subtended at a maximum from eye
level, find the distance horizontal distance from the screen?
![Page 15: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/15.jpg)
1.5 m
3 m
FIRST, DRAW A VISUAL
Some things to recognize before you begin:
• In order to maximize theta, we need to find d(θ)𝒅𝒙
• θ = θ2- θ1
• The derivative for the inverse tangent is 𝟏
1+ x2
EXAMPLE: FINDING MAXIMUM VIEWING ANGLE
![Page 16: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/16.jpg)
EXAMPLE: FINDING MAXIMUM VIEWING ANGLE
Start by setting up triangles for θ1 and θ2.
θ2
4.5 m
x
3 m
x
θ1
Tan(θ2)=4.5/x
Therefore, arctan(4.5/x)= θ2 Tan(θ1)=3/x
Therefore, arctan(3/x)= θ1
![Page 17: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/17.jpg)
EXAMPLE: FINDING MAXIMUM VIEWING ANGLE
Since θ= θ2- θ1, we can combine the previous equations into this
one.
θ(x)=arctan(4.5/x)- arctan(3/x)
The next step would be to take the derivative of this function with
respect to theta. For simplicity, I am going to bring the x up to
numerator to be x-1. Keep in mind that there are functions inside of
functions.
θ’(x)= d𝑑𝑥
(arctan(4.5x-1))- d𝑑𝑥
(arctan(3x-1))
![Page 18: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/18.jpg)
EXAMPLE: FINDING MAXIMUM VIEWING ANGLE
Remember that the inverse tangent function derivative is 1/(1+x2).
The next step is writing out the derivative of the function.
θ’(x)=(
1
1+(4.5/x)2)(-4.5/x2)- (
1
1+(3/x)2)(-3/x2)
Now we can simplify the function by pulling out the 1/x2.
θ’(x)=(1/x2)((-4.5/1+(4.5/x)2)+(3/1+(3/x)x2))
![Page 19: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/19.jpg)
EXAMPLE: FINDING MAXIMUM VIEWING ANGLE
Now we can multiply the x2 into the denominators of the 2 fractions
to cancel some of the terms out.
θ’(x)= -10.9/(x2+4.52)+8.5/(x2+32)
Adding the two factions together gives us the following
θ’(x)= (-1.5x2 +20.25)/((x2+4.52)(x2+8.52))
![Page 20: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/20.jpg)
EXAMPLE: FINDING MAXIMUM VIEWING ANGLE
To find when this fraction equals 0, we only need to set the
numerator equal to 0.
0=-1.5x+20.25
Solving for gives us the following:
x= 13.5
The distance from the screen that will give
you the best viewing angle is 13.5 meters.
![Page 21: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/21.jpg)
VISUAL MAP
Inverse Trig
Functions
Inverse
Functions
Trigonometric
Functions
One-to-
One Horizontal Line Test
Derivatives
Limits Product and
Quotient Rule
Chain Rule
Differentiation
Implicit
Domain and
Range
Instantaneous
Rate of Change
Discontinuity
Intermediate
Value Theorem
Squeeze
Theorem
![Page 22: Inverse Trig Functions - Texas A&M Universityshatalov/Inverse Trig Functions.pdf · The Definition of Inverse trig functions can be seen as the following formulas. Each is the inverse](https://reader034.vdocuments.us/reader034/viewer/2022042710/5f645d16963675037e7c7981/html5/thumbnails/22.jpg)
REFERENCES
• http://www.intmath.com/analytic-trigonometry/7-inverse-trigo-functions.php
• http://www.math.tamu.edu/~shatalov/cn_4_6.pdf
• http://www.math.brown.edu/UTRA/trigderivs.html
• http://www.trigonometry-help.net/history-of-trigonometry.php
• http://www.had2know.com/academics/trig-angle-measure-without-protractor.html
• http://en.wikipedia.org/wiki/Euler's_formula
• http://mathforum.org/mathimages/index.php/Euler's_Formula
• http://www.intmath.com/differentiation-transcendental/4-applications-derivatives-
trigonometric.php